Molecular Characterization of the Plasma Membrane H + -ATPase, an Antifungal Target in Cryptococcus neoformans

Abstract

ABSTRACT The Cryptococcus neoformans PMA1 gene, encoding a plasma membrane H + -ATPase, was isolated from a genomic DNA library of serotype A strain ATCC 6352. An open reading frame of 3,380 nucleotides contains six introns and encodes a predicted protein consisting of 998 amino acids with a molecular mass of approximately 108 kDa. Plasma membranes were isolated, and the H + -ATPase was shown by sodium dodecyl sulfate-polyacrylamide gel electrophoresis to be slightly larger than the S. cerevisiae H + -ATPase, consistent with its predicted molecular mass. The plasma membrane-bound enzyme exhibited a pH 6.5 optimum for ATP hydrolysis, K m and V max values of 0.5 mM and 3.1 μmol mg −1 min −1 , respectively, and an apparent K i for vanadate inhibition of 1.6 μM. ATP hydrolysis in plasma membranes and medium acidification by whole cells were inhibited by ebselen, a nonspecific H + -ATPase antagonist which was also fungicidal. The predicted C. neoformans protein is 35% identical to proton pumps of both pathogenic and nonpathogenic fungi but exhibits more than 50% identity to PMA1 genes from plants. Collectively, this study provides the basis for establishing the Cryptococcus H + -ATPase as a viable target for antifungal drug discovery.